The development on the C-3500 flame depth calorimeter was principally to the measurement of combustion chamber warmth fluxes in electric power producing facilities. The calorimeter temperature sensor will allow the direct and instantaneous power evaluation of combustion chamber gasses for greatest stoichiometric fuel/air combine. In addition, the calorimeter is greatly used in verifying heat source intensities at distinctive cracking tower stations together the entire oil refinery approach, which assures method repeatability. Another essential application is placed on the flame screening of products and components less than Federal Aviation Laws. Other applications contain electricity era, hotbox flame command, jet exhaust output, organic gasoline energy material, reactor output, furnace intensity and a number of other ASTM flame test evaluations.
The flame depth temperature sensor is a one.00 - two.00 inch diameter, rod which is put in immediate speak to while using the heated gasses. The sign generated is immediately proportional towards the neighborhood warmth flux; a radial traverse on the resource yields a evaluate of your full energy output. The sensor yields D.C. millivolt alerts that may be measured with regular millivolt meters or recorders.
How the Calorimeter Operates
The C-3500-3600 Flame Calorimeter would be to be inserted by way of a port specifically into your combustion gasoline stream. The HT-50 High Temperature Warmth Flux Transducer continues to be welded and heat sunk to some area 50mm through the tip from the C-3500 Probe(C-3600 has sensor at suggestion of probe). The location of this sensor is to the identical side as the drinking water discharge port and it has been quickly marked for the usefulness. This spot really should be noted and positioned to make sure that the combustion gasses impinge right upon it. The best detected fluxes will take place when the sensor locale is at 900 or at a stagnation stage into the flame entrance.
The calorimeter includes an inner calibration temperature water feeding tube within just the hollow cylindrical probe. Amazing drinking water enters as a result of the internal tube and flows out by way of the annular hole among the internal tube and interior wall with the outer probe tube. A regulate technique may differ the speed of flow of water to maintain the inside temperature of your probe wall at a continuous benefit. Water coolant needs to be provided on the probes rear inlet in a stream level of 10 - twenty Liters/Minute. Boiling of your cooling water must not ever be authorized, for extremely high thermal flux charges, the water/coolant movement amount need to be increased until finally the exit water temp is tepid. The typical heat flux is calculated by multiplying the C-3500-3600 Calibration Constant by the calculated DC micro-voltage.